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Main Author: Déjardin, P. M.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.13495
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author Déjardin, P. M.
author_facet Déjardin, P. M.
contents The molecular theory of Rayleigh light scattering in dense isotropic polar fluids is reconsidered by suitably adapting local field concepts of electrostatics to propagating electromagnetic waves, hence accounting for both the rotational and dipole-induced dipole (DID) contributions. Simple analytical equations are derived for the various Rayleigh ratios relevant to lateral light scattering in various situations, namely pure DID, pure rotations and mixed contributions. For pure DID, the derived Rayleigh ratios are entirely analytical and very simple, while for pure rotation, the use of rotational mean field approximation is justified, hence allowing the description of Rayleigh ratios in terms of a single orientational correlation parameter that is straightforwardly determined as a positive root of a quadratic algebraic equation. Simple expressions for the Rayleigh ratios are also derived in two mixed situations where DID dominates rotation and when rotation dominates DID. Relation to previous experimental and theoretical work is discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2605_13495
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Theory of Rayleigh molecular light scattering by isotropic polar fluids revisited
Déjardin, P. M.
Statistical Mechanics
The molecular theory of Rayleigh light scattering in dense isotropic polar fluids is reconsidered by suitably adapting local field concepts of electrostatics to propagating electromagnetic waves, hence accounting for both the rotational and dipole-induced dipole (DID) contributions. Simple analytical equations are derived for the various Rayleigh ratios relevant to lateral light scattering in various situations, namely pure DID, pure rotations and mixed contributions. For pure DID, the derived Rayleigh ratios are entirely analytical and very simple, while for pure rotation, the use of rotational mean field approximation is justified, hence allowing the description of Rayleigh ratios in terms of a single orientational correlation parameter that is straightforwardly determined as a positive root of a quadratic algebraic equation. Simple expressions for the Rayleigh ratios are also derived in two mixed situations where DID dominates rotation and when rotation dominates DID. Relation to previous experimental and theoretical work is discussed.
title Theory of Rayleigh molecular light scattering by isotropic polar fluids revisited
topic Statistical Mechanics
url https://arxiv.org/abs/2605.13495